Allen a



July 2l, 1936. A. A. DICKE CASH REGISTER Filed Feb. 24, 1927 10 Sheets-Sheet l .MSN

NW .msm

, [wwwrun E H w E, l, N N v m @n m I H E. m .m w m u m n m D b n.

m uw D.

' ALLEN A. DIC/ff y BYX I ATTORNEY v July 21, 1936.

A. A. D gCKE CASH REGISTER Filed Feb. 24, 1927 1o sheets-sheet 2v gmc/tn ALLEN A. DCK

, BY t,

.C ATTORNEY` July 21, 1936. A. A. DlcKE 2,048,060

I CASH REGISTER Filed Feb. 24, 1927 1o sheets-sheet s N VEN TOR ALLE/V A. D/C/ff July 2l, 1936. A A, mCKE 2,048,060

CASH REGISTER Filed Feb. 24, 1927 l0 Sheets-Sheet 4 0 l 47 u hss" Jwoentqz @24M/Lamy ATTORNEY Ju1y21,.1936. A A D.KE l 2,048,060?

CASH REGISTER Filed Feb. 24, 1927 l0 Sheets-Sheet 5 ALLE/v A /clff n BY j# C. M

ATTORNEY A. A. DICKE CASH REGISTER July 21, 1936.

Filed Feb. 24, 1927 l0 Sheets-Sheet 6 ATTORNEY 'f July 2l, 1936.

A. A. DlcKE 2,048,060

CASH REGISTER Filed Feb. 24, 1927 l0 Sheets-Sheet '7 lNvENmR ALLE/v A. @fc/ff ATTORNEY July 2l, 1936.

A. A. DICKE CASH REGISTER 10 Sheets-Sheet 8 Filed Feb. 24, 1927 gmmtgz ALLEN A, /c/fff we AURNEY A. A. DlcKE CASH REGISTER July 21`, 1936.

Filed Feb. 24, 1927 l0 SheebS-Sheet 9 v. grwmtcn ALLEN A. D/cy/ff BY I ATTORNEY July 21, 1936,. A. A. DME 2,048,060

' l CASH REGISTER l Filed Feb. 24, 1927 10 Sheets-Sheet 10 f SWW/nto@ ALLEN A D/CKE ATTORNEY rammed July 21, 193s UNITED STATES PATENT v'or-FICE CASH REGISTER Allen A. Dicke, Montclair, N.. J., assigner, by mesne assignments, to The National Cash Register Complny, Dayton, hio,.a corporation of Maryland Application February 24, 1927. Serial No. 170,494 40 Clalml. (Cl. 235-14) above functions, the inherent characteristcs of which are; simplicity iniconstruction, reduction of number of parts, ease in manufacture of the component parts together with their assembly in the cash register.

One object of the present invention is to provide an improved type oi differential mecha. nismwhich is simple in form but positive in its operation resulting in the correct addition of the amounts entered together with their indication and printing upon av record medium. Brieily, the :objects just stated which result from the improved design are `accomplished in the preferred form of embodiment herein shown by providing two complementary movable levers, there being a pair of levers for each bank of keys, their extents of movement being determined by the key depressed in each bank. A y universal operating member is providedl for operating the levers of certain banks, the arrangement being such that the levers of one bankmay be stopped in a different position than the levers in another bank so that the proper diii'erential movement may be imparted to the related actuating racks. One of each paix` oi the levers is normally locked but when a key in the assoelated bank is depressed a detent is actuated to move a zero stop pawl' oi.' that bank out voi.' engagement with the lever to permit movement of A the latter by the common operating member.

In combination with the diilerential devices provided for the various classes of keys, -there is provided a suitable indicating mechanism so l -co-ordinated with the differential devices that each indicator maybe moved directlyv from one position to another without iirst returning it to 4" an initial or normal position. The consequence of this is thatthe indicators and connected parts have their extents of movement greatly reduced thereby reducing the work to be done and diminishing the wear of these parts considerably;

vide an improved type oi.' key detent mechanism which is simple in construction, but effective in operation, one ofthe detents, that of the clerks 55 bank of keys in the embodiment shown, being It is also an object of the inventionto pro' capable of releasing the machine for adding operations.

, It is also an object of the invention to provide a plurality of individual totalizers for keeping separately the amounts of the receipts per- 6 taining to the different transactions occurring in mercantile establishments in which the machine is intended to be used, and also to provide an improved type of mechanism for accumulating the grand total of the amounts enl0 tered in selected ones of the individual totalizers; In connection with the totalizing devices it is broadly an object ci! 'the invention to provide an improved type of totalizer selecting mechanism, the diiierential mechanism employed to eiect 15 selection being similar in form and construction to that utilized in connection with the other banks oi! keys thus dispensing with the need of a number of special parts. The totalizer selecting devices are so designed that the totalizers 20 are positively engaged and disengaged from the actuators thus dispensing with the necessity of having springs to return certain parts and insuring accuracy in the different operations of the machine. An improved locking mechanism is 25 also provided whereby the totalizers may not be surreptitiously or accidentally operated.

The totalizer selecting devices are so arranged that an item will normally be entered in the cash totalizer the same amount being simul- 30 taneously entered in the lgrand" totalizer. The amounts pertaining to other transactions are enf tered in the appropriate totalizer by depressing the related key andthen operating the machine,

the grand totalizer selecting device being so ar- 35 ranged that when items are entered in certain Y totalizer the grand totalizer will not be operated.

It is also an object of the present invention to provide an improved type of controlling mech- 4o anism whereby the machine maybe normally conditioned for entering and printing items, but by the simple adjustment of avcontrol lever-the machine may be conditioned so that the totals standing upon any oi' the totalizers maybe re- 45 corded. In conjunction with the total taking devices it is a further object o! the invention to provide an-improved mechanism wherebythe 1 machine may be released for one operation by simply adjusting the total lever out of the normal adding position. This simplies to a great extent the operations of the machine permitting the totals to be obtained rapidly with a minimum of en'ort which is a desideratum in machines of this type. Subsequent total taking operations after the iirst are, in accordance with this invention, placed under the control of the transaction bank of keys. The construction is such, however, that this bank of keys has no control over the release of the machine when adding.

The machine is also provided with mechanism whereby the totals standing upon the individual totalizers may not only be recorded by whereby these totalizers may coincidentally be reset so l0 that items pertaining to a subsequent period of business may be entered therein.

In connection with the total taking and resetting devices it is broadly an object to provide an improved type of mechanism which requires few parts but is eiiective in'its operation. This,

in the embodiment shown, comprises a plurality of cams which may be adjusted under control of the total lever so that the machine may be readily conditioned for entering items, reading (printing) totals or printing totals and resetting the totalizers, the cams being so arranged that the timing of the engagement and disengagement of the selected totalizers with the actuating racks may be changed, as required. The present invention also comprises suitable I interlocking devices between the diierent manipulative members so that misoperations, either intentional or accidental, may be minimized, thus eliminating the liability of errors. The interlocks are very simple thus precluding any possibility of their becoming out of order. A novel interlocking mechanism is provided between the error and operating keys, which, while the error key is being operated prevents the depression of any of the operating keys, and conversely after the machine has been released for operation locks the error key against manipulation. The machine is also equipped with a single key mechanism for preventing the depression of more than one key in a bank, this mechanism being so coordinated'with the total control lever that when the latter is moved out of the add position the key stops will be locked against operation thus preventing any of the amount keys from being depressed. Furthermore, movement of the total lever out of the adding position will release any.

of the previously depressed amount keys. The grand total key in the illustrative embodiment is located in the bank of transaction keys and in normal item entering operations is locked, but when the machine is conditioned for totaling operations movement of the total lever out of the adding position is adapted to unlock the grand total key Since the latter may be employed inv total taking operations. A simple interlock is also provided for preventing movement of the total lever out of the adding position when a clerks key has been operated to release the machine for operation. Improved devices are also 50 provided for locking the machine against operation in the event that the total lever should be improperly adjusted and also whereby the total lever may not be moved out of its adjusted position when the machine has been partially operated.

With these and incidental objects in viewthe invention consists in certain novel features of construction and combinations of parts the essential elements of which are set forth in appended claims and a preferred form of embodiment of which is hereinafter described with referentothe drawingswhichaccnpanyandform part ofthe specincation. 'l5 Of said drawings:

Fig. l is a front elevation of a machine embodying the invention showing the controlling keys and the total controlling lever. This view also shows the manner in which items are indicated and printed. b

Fig. 2 is a transverse sectional View taken through the machine showing a bank of amount keys, the differential mechanism associated therewith, and the common member utilized to lock and subsequently release the amount keys. l0

Fig. 3 is a view in side elevation of the zero stop disabling member for the diierential devices of the nfth and sixth (overflow) banks.

Fig. 4 is a top lplan view of the machine, the cabinet having been removed, showing the sup- 15 porting frames, the total control lever and its connections to the releasing mechanism for the machine. This view also shows the arrangement of the printing segments and a number of the elements comprising the printing mechanism. 20

Fig. 5 is a transverse sectional view, somewhat similar to Fig. 2, but taken alongside of the clerks bank of keys and showing in detail these keys and the associated differential mechanism.

Fig. 6 is a top plan view taken substantially 25 above the central portion of the machine show-l ing the arrangement of the key banks and the connecting shafts between the differential devices and the totalizer actuators and the printing segments. 33 Fig. 7 is an elevation of the right hand side of the machine showing details of the clerks key bank, the multiple totalizers and the printing mechanism for printing items and totals.

Fig. 8 is a detail showing the operating crank and its connections to the various driving shafts. Fig. 9 is a transverse sectional view of the machine taken to the left of the bank of transaction keys and showing in detail the different key locking devices and their connections to the total control lever.

Fig. 10 is a transverse lsectional view taken at the left side of the clerks bank of keysand shows in detail the releasing mechanism for the machine which is controlled by either a clerks 45 key or the total control lever.

Fig. 11 is a detail of the cam for operating the totalizer selecting mechanism during total taking operations.

printtng segments and their relation to the prlntg5 inspletm. Y

Fig. 16 isatopplanviewofoneofthemultiple totalisers showing therelation-of itspinions totheoperatingsegments andtransferarms.

ml'lisapenpectiveview showings number 70 ofelemmtsassociatedwiththetransferdevices. 4111g. lisadetail sectional viewshowing the nerostoppmvidedforthetotalixingelemmtof thehighestdenmninationalorderofeachtotal- Fig. 19 is a detail View oi a number of elements comprising a part of the transfer mechanlsm.

Fig. 20 is a partial top plan view illustrating the devices whereby the control lever may release incorrectly depressed keys. A-

Fig. 21 is a detail of certain machine releasing elements which are effective during totaling operations.

Fig. 22 is a top plan view of the cams for effecting different accounting operations.

The machine herein disclosed includes various mechanisms, common in machines of this class namely; a driving mechanism, keyboard, differential mechanism, a grand totalizer, and a plurality of transaction totalizers,` an indicating mechanism, and a printing mechanism here shown for printing items on a detail strip, but which may be employed equally as well for print,- ing upon inserted slips or issued checks, and devices employed for the printing of totals.

The driving mechanism comprises two drive shafts with gear connections whereby these shafts may be caused to make one rotation by two rotations of a. crank handle in either item entering operations or total taking operations. The driving shafts and crank handle are normally locked, but in item entering operations are released by the depression of one of a series of clerks keys, While in total taking operations, since the clerks keys are ordinarily not employed, connections are eiected between the total lever and the releasing device of the machine so that movement of the total lever to certain positions will release the machine in exactly the same manner as clerks keys do in item entering operations.

The keyboard comprises a total control lever, a plurality of banks of amount keys, one bank of clerks keys, and a bank of transaction keys included in which is a grand total key which is locked against operation when the machine is conditioned for item entering operations.

The differential mechanism for each bank comprises in general a pair of levers which are positively moved complementary extents, the movement of the levers being governed by the key depressed. A pair of levers is provided foreach bank of amount keys, clerks keys and transaction keys, the amount and clerks differential mechanisms being operated by a common member. One of the complementarily moved members of each bank is normally locked but is released by the zero stop pawl Acontrolled by the detent plate of that bank. One of the levers which is moved diierentially commensurate with the key depressed has integral therewith a segment rack plate having a connection to a member provided with a rack portion for actuating the desired totalizer and also simultaneously adjusting a printing segment. In this manner a dlierential movement is imparted to each totalizer actuating rack so that by' its co-operationr with the corresponding pinion of the selected totalizer it will actuate the totalizer element differentially during the return stroke of the actuator. Only the amount differential devices are utilized to actuate the totalizer pinions, while these differential devices as well as those associated with the transaction and clerkskey banks are utilized for the purpose of differentially adjusting related type carriers and indicators. By

suitable connections the type carriers are set l diiferentially under control of the keys depressed when itemsare entered, or ol. the totalizers when totals are printed, which of these controls is active being determined by movement of the control lever to a selected position.

In respect to the printing section of the machine, there is provided an inked ribbon, a paperA strip, and a platen all operating in a well known manner.

An indicating mechanism is also provided in which the indicators are each connected to one of the diierential devices of the machine and all @are so arranged as to be moved from one reading position directly to another without being brought to a constant position. The illustrative machine is shown equipped with only one set of indicators for indicating at the front of the machine, amounts, letters representing the clerks, andlegends denoting the transaction entered in the machine, but if so desired a duplicate set of indicators may be provided whereby the same information may be read at the other side of the machine. A

In order to accumulate the amounts entered in the machine the illustrative embodiment is provided with a plurality of individualv transaction totalizers the framsof which are so mounted that their pinions may be brought directly into co-operative relationship with. the actuators which in turn are controlled by the banks of amount manipulative devices, such as, keys. For

in the machine shown the totalizers are allotted to the different transactions they may, if desired, be utilized to segregate the :sales pertaining to the different departments, or clerks, etc. A grand totalizer is also provided and the elements of this totalizer may be moved into engagement with the actuating racks each time certain of the transaction totalizers are rocked into engagement with the actuators. Provision is also made whereby when an amount is entered in'either of the totalizers appropriated to the paid out and received on account keys this amount will not be entered in the grand totalizer so that the latter will only accumulate amounts representing the amount of new sales performed i during an arbitrary period.

A manipulative device forming a part of the total recording mechanism is capable of being adjusted to three different positions. This manipulativedevice ywhen in its normal position` ing the amount standing on the cash totalizerY upon the record strip and indicating it if desired. Printing totals from the grand totalizer and the remaining transaction totalizers is performed by depression of the related key followed by a subsequent operation of the crank handle. Depression of the grand total key or one of the transaction keys serves to release the machine during totaling operations only and for the first 75 totaling operation no key need be depressed so that the total of the cash totalizer may be automatically taken.

When the machine is conditioned for total taking by movement of the manipulative device to the read position the timing of the engagement of the totalizer pinions with the actuators will be so regulated that the desired totalizer will be moved into and out of mesh with the actuating segments for the purpose of permitting the segments to rotate the totalizer elements in both directions thus permitting the amount to remain on the totalizer.

When the total lever is moved to the position designated reset the machine is conditioned so that the recording of the total of any of transaction totalizers and the grand totalizer may be permitted along with the resetting of the totalizer, and in this instance, the totalizers are moved into mesh with the actuating segments for permitting the segments to rotate the totalizers in only one direction so that after the amount standing upon the seleced totalizer has been subtracted therefrom the totalizer will then be disengaged from the racks and the totalizer pinions will remain in their zero positions.

In addition to the above described devices the machine is also provided with an error key whereby in the event that an error should have been made in the depression of one of the keys in the amount or transaction banks, the same may be rectied Without a further operation of the machine. The error or release key is so arranged in co-operation with the clerks bank of keys that it may not be operated after the machine has been released for operation by the depression of a clerks keys. Furthermore, in order to insure proper operations of the machine various other interlocks and cross connections are provided for the following purposes: to prevent movement of the total lever out of its adjusted position after the operation of the machine has commenced; to eiect the release of any of the previously depressed amount or transaction keys prior to a movement of the total control lever tothe read or reset position; for normally locking the grand total key when the machine is conditioned for item entering operations and for releasing it when the control lever is moved out of the adding position, and simultaneously lockin'g the no sale key since the latter is not employed in total taking operations. The usual form of key stops are provided for preventing the depression of more than one key in a bank and connecting mechanism is ,employed for locking the amount and clerks keys when the total lever is moved out of the adding position. i Y

The general organization and operation of the machine as a whole having been thus outlined, the preferred construction of the various parts above referred to will now be described in detail.

-' Framework Figs. 4 and 6 disclose the relative arrangement of some of the members comprising the framework of the machine from which it will be noted there are provided two main side frames 40 and 4I between which are parallel intermediate frames 42 which, at their front portions comprise the supporting means for the amount keys and associated devic. In addition' to these frames there is also provided a parallel trame 43 which is the supporting means for the keys associatedwiththeclerksbankofkeyawhile the frame4|,inthepresen tinstance,isthesup porting frame for the transaction bank of keys.

VIn order to give strength and rigidity to the framework the various members are held together by means of transverse shafts which, may at the same time, either serve as the operating .shafts for the machine or supporting means for some of the elements. To the right of the frame member 4i are parallel frame members 44 and 45 which are provided for the purpose of supporting the totalizing and printing devices. All of the frame members just referred to rest upon and are attached to a base 46 (Fig. 5). As best shown in Fig. 1, the machine is enclosed by a cabinet 41 which may be made of any desired material, the cabinet being provided with a series of slots to receive the operating keys and total controlling device and being furthermore apertured at 48 at its upper end to permit viewing of the indicators which have been brought to the reading line. The printing and associated mechanisms are concealed by means of a hinged cover 49.

Operating mechanism To impart power to the various mechanisms of the machine, the machine may be equipped with a manually operated crank handle 50 (Figs. 4 and 8) which is loosely mounted upon a stub shaft attached to the frame 45, the handle having attached to it a gear 5l meshing with a larger gear 52 attached to a driving shaft 53. The latter gear 52, which is twice as large as the gear 5I meshes with an idler gear 54 loosely mounted upon a stud 55 also projecting from the frame member 45. The gear 54 meshes with a gear 56 f (similar to the gear 52) which is rigidly mounted upon a second driving shaft 51. The shafts 53 and 5l are the driving shafts of the machine and they carry cams and other devices for operating the various parts of the mechanisms as will be described in detail hereinafter as the specication progresses.

'I'he drawings show the machine as it would appear when provided with a manually operative crank for the purpose of operating it, but it is also intended that the machine may be provided with an electric motor and clutch to connect the motor with either of the .driving shafts 53 or 51 and for this purpose any well known electric driving device may be utilized. i

Keyboard The keyboard in the illustrative machine, as best shown in Fig. 1, comprises four banks of amount keys 58 which permits the entry* of amounts as high as $99.99. Ihere is also provided a single bank of clerks keys 59 and a series of four keys, 63, 64, 65, and 66, comprising a bank of transaction keys. 'Ihere is also provided a total control lever 6I above the clerks keys and a special key 62, located in the transaction bank but designated as a grand total key; both of these manipulative devices may be active for controlling the machine when performing certain totaling and resetting operations. Attention is called to the fact that in the transaction bank there is provided a received on account key 63, a no sale key 64, a charge" key and a paid out key 66 for designating the usual transactions other than cash sales occurring in mercantile establishments.

Amount keys 'Ihe construction and the mounting of each UJI ot the amount key banks 5I are identical, the'ls bank illustrated in Fig. 2 being taken as representative of these four banks. The stems of the amount keys 58 t in radial slots formed in their associated supporting frame 42, the stem of each key being surrounded by a spring 68. which is employed to retain and return the key to its outer or normal position. Each key is provided with an inclined edge 69 and a notch 10 adapted to co-operate with laterally extendingA lugs 1| integral with a, key detent 12. The detent 12 of each bank is supported at its lower and upper ends respectively, by arms 13 and 14,-the 'arm 13 being pivoted to the key -frame by a screw 15, lwhile the arm 14 is loosely pivoted upon a transversely extending rod 16. Each detent 12 may serve totemporarily retain a key in its bank in depressed position, since it will be obvious that when a key is depressed the inclined edge 69 engaging the lug 1| will rock the detent 12 downwardly until the key has been depressed sumcientiy to bring the lug 1 into co-operation withL the notch 10, and'since the detent 12 then springs slightly upwardly under the action of a connected spring 11, the lug 1|v will engage the notch 10 of the key and hold the latter depressed against the compression of the return spring 68.

The arm 13 is provided with a rearward extension 18 engaging the pin 19 carried by a zero stop pawl so that when the detent is lowered the engagement of the extension 18with the pin 19 will disable the zero stop pawl 80 for the diiIerential mechanism, and since the key will be held in locked position the zero stop pawl 60 will be retained in its disabled position as long as the key is held depressed.

Clerks, keys The bank of special clerks keys 59 is shown in Fig. 5, and while it is constructed somewhat similar to the key banks already described, it nevertheless contains an element, not found in the amount key banks; through the medium of which it is capable of an additional function. The keys 59 of this bank are mounted in the iframe 43 and by reference to Fig. 1, it will be-seen that these keys reading from the top, bear upon their projecting operating heads initials, A" to M" inclusive, representing the different clerks `employed in the establishment for which the machine is designed. It is apparent that whenever desired, a lesser number of keys might be placed in this bank generally determinable. by the number of clerks who are to use the machine.

All of the clerks keys are, similarly to the amount keys, provided with inclined edges 82 (Fig. 5) as well as notches adapted to co-operate with lugs 83 carried by a detent plate 84 which, at its lower end is pivoted to an arm 85 whose extension co-operating with the pin 86 disables a zero stop pawl 01 just as described in connection with the amount key banks. The upper end of Y the detent plate 84 is carried `by an arm 88 the latter carrying a pin 89, which as shown in Fig. 4, extends laterally a suilicient distance to overlie an arm 90 loosely mounted on the shaft 16. The clerks keys have the additional function of releasing the machine and the machine cannot be operated by the crank handle for entering items-unless one of these keys is depressed. The clerks keys in additionto being releasing keys for the machine also control an indicator and type wheel by means of a differential mechanism as will hereinafter be described, and it is sufilcient here to state that no one can operate the machine without depressing a clerks key and by means oi the indicating and printing mechanism the necessary information is given as to which clerks key has been employed to release the machine.

Machine lock 'Ihe ymeans whereby the crank handle is normally locked against operation but released upon depression of one oi the clerks keys is best shown in Fig. 10. Referring to this figure, it will be noted that secured to the driving shaft 58 is a disk 9| provided with a shoulder normally engaging a lug-.92 of an element slidably mounted in a bell-crank 93, the lug 92 being normally 15 urged into co-operative relationship with. the shoulder of the disk 9| by means of a spring 94 and a spring 95 connected t'o the bell-crank 92. As previously stated', the arm 90 is loosely mounted on the shaft 16 and is provided with a shoulderedportion 96 adapted to co-operate with a spring-pressed pawl 91 carried by the bell-crank 93.y A spring 98 urges the arm 90 against the stud 89.

From the construction just described, it will be self-evident that when a clerks key is depressed. the pin 89 will rock the arm 90 counter-'clockwise as viewed in Fig. 10 so that the shouldered portion 96 co-operating with the pawl 91 will rock the bell-crank 93 clockwise against thev tension 30 existing in the spring 95. This will resultin the disengagement of the lug 92 from the shoulder of the disk 9| so that the spring 94 will urge the lug 92 upwardly enough to carry it out of line with the shoulder on the disk. When the shoul- 35 der 96 is disengaged from the pawl 91 the spring 95 will be eiective to rock `the bell-crank reversely so that the lug 92 rests upon the periphery of the disk thus leaving the shaft 63 and crank handle unlocked for operation.

40 Transaction key bank As previously statedthe transaction keys 63, 64, 65, and 66 and the ,grand total key 62 are all located in one bank and as shown in Fig.7, each oi' the key stems is provided with an inclined edge |0| and a notch |02 adapted to engagea lug |03 integral with a detent plate |04, similar to the detent plates 12 and 84 described in connection with the amount and clerks' key banks. Bly this 50 means the keys are' held temporarily depressed and when any key is depressed a zero stop pawl 80 (Fig. 9) is disabled in the usual manner.

Single key mechanism 55 It is desirable to provide means to prevent a depression of more than one key in a bank since this would probably result in the disarrangement of the mechanisms and a confusion in the printed record and indication. To this end there is loosely pivoted upon the clerks key supporting i'rame 43 (Fig. 10) a series of key stops 99 'of the usual form adapted to co-operateiwith pins |00 carried by each of the stems of the` clerks keys. ,The

in connection with the clerks key bank, it is to be understood that the construction shown and described should be taken as representative of all the amount key banks as well.

Intermediate the iive keys of the transaction bank are also located key stops |06 (Fig. 9) which serve in the usual way to prevent depression of more than one key in this bank. Attention is directed to the fact at this time that the grand total key 62 is equipped with a pin |01 which normally in item entering operations is in locking relationship with a projection |08 of a plate |09 pivoted at its lower end to the transaction bank key frame by an arm ||0 and pivoted to the transaction key bank frame at its upper end by an arm Il I secured to the shaft 18.

Lock for operating` keys After the machine has been released and partially operated it is desirable to lock all the keys in all banks of the machine during the operation of the machine, this applying not only to banks in which keys have been depressed but in banks in which no keys have been operated.

As best shown in Fig. 2 the detent plate 12 associated with the amount key bank is provided with an upward extension I I2 provided with adjacent notches ||3 and ||4 which are adapted to co-operate with a bail member I I5. As best shown in Fig. 4, the bail I I5 comprises a transversely extending bar attached at opposite ends to a pair of bell-cranks I I6 and ||1 loosely mounted at their mid-portions upon a transverse shaft III.

'The rearward arms of the bell-cranks IIB and ||1 are provided with rollers engaging the cam slots of box cams IIS (see Figs. 2 and 9) attached to the driving shaft 53. To provide strength and rigidity to the frame the bail ||5 at its midportion has attached to it an arm |20 (Flg.'4) which is also loosely mounted upon the shaft I I8.

As will be noted in Fig. 5 the detent Il associated with the clerks key bank is likewise provided with a rearward extension |22 having adiacent notches |23 also adapted to co-operate with the bail ||5, and similarly referring to Fig. 9, the detent associated with the transaction bank is provided with an extension |24 having adjacent notches |25 also adapted to co-operate with the bail H5.

It will be obvious that when a key is depressed the detent of that particular bank will be forced downwardly thus bringing the rearmost notch into position for co-operating with the bail III, but if the key in any bank has not been depressed. the detent, will, of course, remain in its normal position at which time the bail ||5 will be in cooperative relationship with the foremost notch.

. When the machine is partially operated the cam slotinthe cam ||9willrockthearms Ill (Fig. 2) slightly downwardly thus raising the bail Ill so that it will engage either the foremost or rearmost notch thus holding all the detents in locked position and thereby preventing a depression ot additional keys or release of those depressed in the different banks.

The above makes it clear that the amount keys may be depressed in conjunction with any desired transaction keys, and that upon s depression of one of the clerks keys the machine is released so as to permit nation by the operating mechanism, and that y a partial movement of the latter all keys in the banks are locked against operation.

Release of the keys at the end of an operation of the machine by the operating mechanism It is, of course, necessary to release those keys which have previously been depressed and in the illustrative embodiment the release of the keys is eected by the same member which locks them during an operation of the machine. Loosely mounted upon the shaft 1l is an arm |26 (Fig. 2) which is adjacent the detent plate of the amount key bank, and is connected to the upper end of the detent 12 by a pin |21 which is used as the connecting means between the arm 14 and the detent. If desired, the arm |26 may be formed as an integral extension of the arm 14. By the connection just described, it will be noted that when the detent plate is moved downwardly by the depression of akey the arm |26 also moves downwardly. At a certain point in the operation of the machine the box cam ||8 will n give a downward-movement to the bail ||5 so that it strikes the arm |20 and rocks the detent 12 downwardly sumciently to disengage the lug 1| from the notch 10 of the depressed key and permit the key spring 68 to return the key to its normal position.

As shown in Fig. 4, a series of arms |26 are provided, one for each bank of amount keys. In respect to the clerks key bank the arm 88 which, it will be remembered, is part of the train of mechanism for releasing the machine for operation, also lies under the bail l I5 and serves to release the depressed clerks key at the end of an operation of the machine in the same manner described for the amount keys. In respect to the transaction key bank, the arm |263 likewise lies under the bail H5 and performs the same function.

As previously stated, the arm I0 (Fig. 10) is moved by the pin Il a suillcient extent to cause the shoulder to escape the shoulder on the pawl I1 so that spring 95' ay rock the bell-crank $3 and cause the projecti l $2 to rest on the pe-' riphery of the disk 9|. As the arm 90 is now permitted to rise upon the release of the clerks keys it will merely rock the pawl 91 idly about its pivot until the shoulder AIl is again above the shoulder on the pawl. 'I'he construction just explained serves to prevent an operator from holding the locking bell-crank Il in released position by accidentally or intentionally holding the clerks' key depressed at the moment when it should be released and returned to normal.

l'rrorkey of a rod |20 which as shown in Fig.. 6 extends es transverselyofthemachineandissupportedby arms III rigidly attached to a horizontal transverse shaft Ill to which is attached a key lever |22 which as shown in Fig. 1, projects through the machine cabinet so as to be exteriorly oper- 70 able. When the error key |22 is depressed the shaft III will be rocked counter-clockwise (Pig. 2) so that by the ceo-operation ot the rod I2! with the extensions |2l of the detent plate supportimarmswhichhavebeenoperatedbyvirmu of depression of certain keys in various banks, the detents will be rocked still further downwardly and disengage ther lugs 1| from the notches 1|! of the depressed keys thus permitting the key return springs 68 to return the keys to their normal positions. l

Substantially the same form of releasing connection between the key lever |32 and the detent associated with the transaction bank of ykeys (see Fig. '7) is provided so that if a key in this bank should have been depressed in error the mistake could be rectified prior to a further operation of the machine by the crank handle, it being understood that the rod |29 is of sufficient length to engage the extensions |28 related to the amount and the transaction key banks.

It is advantageous to lock the keys of the banks in which no keys are to be returned while the error key is operated. To this end the extensions |28 related to the amount and transactionA banks as well as the corresponding extension |33 for the clerks bank have their lower edges |28| concentric with respect to the shaft |3|. While the error key is being operated the rod |29 will co-act with these concentric edges to lock the extensions and detents of the unoperated banks against movement by the depression of a key until the error key is returned to normal.

It will be noted, however, from an inspection of Fig. 5, that the extension |33 which is integral with the arm 85 connected to the clerks detent 84 is different from the corresponding extensions |28 of the amount and transaction key banks. The extension las is in the case of the clerks key bank provided with an edge |34 which is concentric with respect to the pivotal point 15 of the arm 85 so that when a clerks key has been operated to release the machine for operation the concentricv edge |34 will pass in front of the rod |29 thereby locking the shaft against counter-clockwise movement by depression of the error key |32. Thus it will be noted that any fraudulent operations of the machine, such as the release of the keys after the machine has been released for operation will be completely prevented. g

The resultof the construction just described is that should a mistake be made in the depression of the keys in the machine the same may be corrected before the machine is released for operation by manipulating the lever |32, but after the operating handle has become unlocked the error i key becomes locked, so that the keys may not be released except by completingthe operation of the machine, permitting the regular release of the keys through the bail ||5 and arms 88, |283.

and |28.

Dierential mechanism The differential mechanism of the machine is employed to operate the totalizers, to select them for operation, and also set the type carriers in the printing mechanism and the indicators in the indicating mechanism under the control of the banks of amount, transaction and 'clerks' keys. l

The differential mechanism controlled by the amount keys comprises a plurality of sections one of which is provided for each bank of keys 58 and is clearly shown in Fig. 2. As shown there is attached to the driving shaft 51 a box cam |34 the cam slot of which cooperates with a roller carried by the rear arm of a bell ,c nk |35 loosely mounted on a transverse shaft 38. It will be noted .that in Fig. 6 that the sh ft 51 carries two cams |34 identical with each other, each of whichcooperates with its associated bell-crank |35 and between the ends of the bell-cranks is extended a universal bar or rod |31. IThe configuration of the cam slot in the cam |34 is such that when the shaft 51 is rotated in the direction of the arrow shown in Fig. 2, the bell-crank will remain substantially stationary for a partial movement of the shaft 51 and the cams |34, after which the cam slot is effective to rock the bell-crank |35`and rod |31 forwardly to a gradually increasing extent and after the maximum movement has been given to the rod |31 the latter will remain substantially stationary during another portion of the continued movement of the shaft and cam |34. The movement given to the rod |31 during the remainder of the movement of the shaft and cam |34 is substantially a counter-part of the first portion of the movement. This will result first ln holding the rodY shifted and then giving it a return slightly beyond its normal position and finally after it has remained substantially idle for a while, it will be brought to normal. The return movement of the rod serves to actuate the differential mechanism of the machine which will now be described in detail.

The universal rod |31 is adapted to co-operate with a cam slot |38 formed in a floating lever |39, the forward end of which is adapted to co-operate at the desired time with the stem of the depressed key, but it is normally retained in the position shown in Fig. 2 abutting against the projection |40 of the frame 42 by means-of a spring |4I. The lever which is in the form of a cam member is pivoted by means of a pin |42 to an arm |43 which is secured by means of pins |44 to a complementally movable lever |45 which has integral therewith a segment plate |46 loosely mounted upon a fixed pivot |41 which in the illustrative embodiment comprises a transverse supporting shaft mounted in the various side and intermediate frames in the central part of the machine. The forward end of the lever |45 is normally in engagement with the lower edge of a nose |48 projecting from the zero stop pawl 88 while the forward end of the lever |39 is normally in such a position that when the uppermost key, which is the key of the highest value in the bank is depressed it is substantially in contact with the rear side of the inner end of this key.

The operation of the differential mechanism is as follows: When a key is depressed the zero stop pawl 80 is rocked forward so that its nose |48 is carried out of engagement with the shoulder of the lever |45 and, as previously described, the zero stop pawl will be retained in its disabled position. When the crank handle is operated the shaft 51 is rotated and such movement of the shaft will rock the bar |31 about the pivot shaft |36 and this movement of the rod is adapted to move the members |38 and |45 complementally, the extent of movement imparted to each member being deendent upon the key depressed. The spring 4| willbe given sumcient tension to hold the lever |39 at normal until the companion lever 45 has been moved. When the shoulder of the lever |45 engages the inner end of a depressed key further movement of that lever is prevented and movement of the lever |39 continues until its shoulder engages the inner end of the depressed key. For example, if the eight key has been depressed the inner end of the stem of that key will be moved in the path of the complementally moved members |39 and |45 and as the machine is operated 75 the rod i3? may first cause the lever |45 to pivot around the shaft |41 and move its outer end upwardly until its shoulder engages the stem of the depressed key. During this movement the member |39 tends to `pivot about its upper end in contact with so that the pin |42 serves t0 transmit the motion of rod |31 to arm |43. As the rcd |31 continues its movement around the pivotal point |36 it cannot impart a further upward movementto the lever due to the contact of the latter with the end of the depressed key so that the rod will now by its co-*operation with the lower edge of the cam slot |38, cause the lever |39 to be rocked counter-clockwise about its connection |42 with the arm |43 until the shoulder of the lever |39 engages the rear or upper side of the eight key. The movement which is given to the segment plate |46 and lever |45 will, therefore, be of eight units in length while a complementary movement of one unit will be given to the member |39. When a. 4. key is depressed the segment plate |46 will be given four steps of movement and the cam lever |39 will be given five steps of movement. machine is operated with no key in the bank depressed the zero stop pawl for that bank remains in operative relationship with the lever |45 so that the latter will not move while the cam lever |39 will be given nine steps of movement. This, of course, will merely result in rocking the cam lever |39 downwardly about its pivotal point |42 during the rst half of the operation of the cam |34 and returning it during the second half of the operation with a result that no movement will be given to the segment plate |46. At the end of the rst half of the operation the parts will be in the position shown in dotted lines in Fig. 2.

summarizing therefore, lit will be noted that the segment plate |46 will be given a differential movement during the rst part of the operation of the machine and it will then return the same differential distance, during the last half of the cycle of operation, these movements being utilized to adjust indicators and printing segments and to operate the totalizing mechanism as will be described hereinafter in detail.

Attention is called to the fact that the formation of the cam slot |38 in the floating lever 39 is such that when the two members 39 and |45 are brought together on opposite sides of the depressed key (or of the note |48 of the zero stop pawl 80) the curvature of the slot |38 will be concentric with the iixed pivot of the rack plate |46. Furthermore, at this time the concave forward edge |39| (Fig. 2) of the member |39 will always be brought into contact with the hub portion of the segment |46.

As will be noted in Fig. 6 there is provided a differential mechanism of a type identical to that just described, for each bank of amount keys, the

same reference characters being applied to likeV parts. To the left of the hundreds of dollars bank of amount keys are two differential mechanisms for which no depressible keys are provided.

l The differential mechanisms of these two orders are utilized for the purpose of total taking and resetting thus permitting the indication and printing of amounts higher than that represented by the keys.

A diierential mechanism of substantially the same construction is also provided for the clerks bank of keys and is best shown in Fig. 5, the :differential mechanism being utilized to adjust the clerks type carrier as well as an indicator, dif- If the' ferentially, as will be described in detail hereinafter.

The elements comprising the differential mechanism associated with the transaction bank of keys are best shown in Fig. 13 and their differences over the 'corresponding elements of the amount differential will be pointed out later. The transaction diiferential is not only utilized for `the purpose of adjusting an indicator and a type carrier differentially, but for selecting a totalizer for operation.

The manner in which the various differential devices adjust their associated indicators difierentially will now be described in detail.

Indicator mechanism Referring to Fig. 5 which shows the .diierential mechanism and indicator associated with the clerks bank of keys, it will be observed that loosely mounted upon the shaft |41 is an arm |50 which is connected to a rearwardly extending link |5| by means of a. pin |52 and while the arm |50 and link |5|,` are 'mounted adjacent the rack plate |46 the pivot pin |52 extends laterally a sufficient extent (see Fig. 6) to co-operate with notch |53 formed in the complementally moved member |45 and with the member |39. The rearward end of the link is connected to an extension |54 of a segment plate |55 provided with teeth engaging a pinion |56 secured to a rotatable indicator |51 carrying characters upon its periphery representing clerks these characters being visible through a. glass |50 carried by the machine cabinet. The segment gear is provided with aligning notches |59 co-operating with a spring-pressed pawl |60 so that the pin carried by the pawl |60 is urged into co-operation with the notches |59 by means of a spring |6I.

When the complementally moved members |39 and |45 are moved as has been described hereinbefore, the notch. |53 formed in the lever 45 engages the pin |52 and positively moves the arm |50 until the pin |52 is in engagement with the forward arm of the other complementally moved lever in which position both levers |39 and |45 engage the depressed key. Which of the levers is to pick up the pin |52 depends, of course, upon the key depressed and also upon the position of the arm |50 at the beginning of the operation of the machine. As the arm |50 is connected to the actuating segment |54 by the link |5| it can be seen that the movement of the arm |50 from one adjusted pition to the other rotates the indicator |51 directly from one indicating position to the other without restoring the indicator to a constant position. As the rack plate |55 is moved from one 'position to the other, the pin carried by the pawl |60 will ratchet over the teeth I 59 it being understood that the spring |60 has sumcient tension to hold the indicator in any adiusted p0- sition between operations of the machine where it will exhibit a letter indicating the clerks key depressed during the preceding operation of the machine..

In order to indicate the amounts registered the dilerential devices associated with the amount key banks, as best shown in Fig. 2, are also provided with arms |62 and links |65, similar to arm |59 and link |5I, and are adapted to differentially adjust the amount indicators |64,

best shown in Fig. 1, so that at the end oi' the Attention is directed to the fact that in the drawings while the dinerential devices are pro- 'vided for the thousands and tens of thousands dollars orders, indicators are not provided for these banks since they are beyond the capacity of the keyboard. Obviously the same sort of connections could be provided to suitable indicators for these banks xas well if desired for purposes of indicating totals. as will be explained. 10 In order to indicate the type of transaction entered in the machine, the differential device associated with the transaction keys is adapted to differentially adjust an arm |65 and through the link |66 (Fig. 9) dillerentially adjust the transaction indicator |61 which, as shown in Fig. 1, is similar to the amount and clerks indicators, but is more extended in width since it is necessary to accommodate more characters.

'I'he illustrative machine shows merely one set of indicators whereby the amounts, clerks initial, and a legend indicating the transaction recorded will be publicly indicated at the front of the machine, but if so desired a duplicate set of indicators may be provided so that the same information is readable at the opposite side of the machine. This merely requires in addition to a duplicate set of indicators similarly lettered some suitable connections between the two setsso that related indicators will be adjusted simultaneously.- To this end any type of connection weil known in the art may be utilized, such as that shown in the patent to J.v P. Cleal and F. A. Reinhard, #580,378, patented Apr. 13, 1897, or, if so desired, the connecting devices shown in the patent to J. P. Cleal and A. Macauley,

#920,110 dated May 4, 1909 may be utilized for .this purpose.

, Printing mechanism printed upon`the record medium, together with abbreviations representing the type of transaction entered as well as an initial representing the clerks key operated; Provision is also made for the entry of written notations adjacent each printed item whereby the items may be further identled.

In order'to adjust the type carriers differentially each rack plate |46 (Fig. 2) associated with the amount key differential mechanism meshes with a segment |68 attached to one of a series of parallel shafts |69 each shaft having rigidly secured to it toward one end a somewhat similar gear segment |10 (Fig. 6) which, as shown in Fig. 15, meshes with a relatedgear segment |12 loosely mounted upon the shaft |41 and provided at its upper end with a segmental 30 portion |13 carrying type elements |14 for printthe digits 0 to 9, inclusive. The same sort of connection is provided between each rack plate |46 of y an amount differential mechanism to a `corresponding amount printing type segment ,|13 so that during the first half ofthe operation of the machine at which time the rack plate |46 is moved differentially, each of the segments |13 will be moved rearwardly a distance commensurate with the amount key depressed in its 70 related bank and. when a platen is operated an impression will be made on the record material denoting the amount entered in the machine.

As best shown in Fig. 5, the rack plate |46 associated with the differential mechanismfor-the clerks bank of lkeys meshes with asegment |15 attached to a shaft |16. The shaft |16 is provided at'its opposite end with a gear segment |11 (Fig. 6) meshing with teeth formed on the lower part of a segment member |18 (Fig. 4) provided at its upper end with printing type ele- 5 ments representing the clerk who has operated the machine.

In order to differentially adjust the transaction type carrier the rack plate |46 associated with the differential device for the transaction l0 key bank meshes with a gear segment |19 (Fig. 13) attached to a shaft |80 which extends transversely of the machine as shown in Fig. 5, having attached at its extreme enda segment |8| (Fig.

6) meshing with the teeth of a segment |82 (Fig. 15 4) formed at its upper endv with printing type elements representing the different transactions. As best shown in Fig. 4, the printing type segments |13, |18, and |82 are adjacent to each other and are normally positioned beneath a 20 platen. l

The platen comprises, as best shown in Figs. 4,

7, and 15, two forwardly extending arms |83 integral with which is a cross head |84 carrying at its forward end a rubber impression block |85 25 which extends transversely and above the various printing segments.

The record bearing material is taken from a supply roll |86, (Fig. 7) and is drawn forwardly under the rubber impression block |85 over a 3 writing table |31, and then rearwardly under a curves glass |88, over a xed roller |89 and nally onto a storage roll |90. N

An inking ribbon |9| isk interposed between the rubber impression block and the type printing ele- 3 ments and extends transversely across the type printing segments as best shown in Fig. 4. The Y inking ribbon, as shown, is of the endless belt ribbon type being carried by supporting rollers |92 at one end and being suitably guided around 40 la felt roller |93 at the other end, this roller being moistened with printing ink.

Any suitable means may be .provided f or effecting a step-by-step movement of the inking ribbon so as to present a new portion of the rib- 45 bon to 'the type segments as desired. The feeding operation may be either performed by a manually operated lever projecting through the machine cabinet and having a feeding connection to one of the rollers as is well knownto those 50 skilled in the art, or, if so desired, a connection may be effected between the inking ribbon mechanism and one of the operating shafts so that during each operation of the machine the ribbon will be automatically fed an increment. The ink- 55 ing mechanism and means for feeding it form no part of the present invention and are therefore, not described in detail. y

In order to move the platen frame and rubber impression block downwardly against the diifer- Go. i

entially adjustedtype one of the arms |83 carries a screw member |94 connected to a member |95 which is vbifurcated at its lower end to re-r ceive the shaft 53 andcarries a roller |96 engaging the race of a box' cam |91 secured to shaft 53. The configuration of the cam slot in the box cam is such that during each operation of the machine, after the type segments have been differentially adjusted, the impression block will be 70 forced downwardly to effect an impression upon the record strip which is then fed an increment by devices which will now be described.

The storage roll carries at one end a ratchet wheel |98 engaged by a. spring-pressed pawl |99 75 carried by a bell-crank 200 loosely mounted upon a shaft 20|. As best shown in Fig. 13 the lower end of the bell-crank carries a roller engaging the race of a box cam 202, the conguration of the cam slot being such that after printing is effected the bell-crank 200 will be rocked counterclockwise as viewed in Fig. 7, so that the pawl |99 co-operating with the ratchet wheel |93 will feed the paper an increment so that after each printing impression the record material will be drawn around the platen and onto the writing table |81 placing the last printed entry in line with a slot 203 (Fig. l) formed in the glass |30.

The slot 203 permits written notations to be entered in juxtaposition to each printed item as clearly illustrated in Fig. 1. The glass |33 is of such. dimensions that a number of the entered items are visible, it being understod, of course, that the other previously printed items are wound upon the record receiving roller |90. The printing mechanism is entirely concealed by means of the cabinet cover 49 which is locked by means of a lock 205 to prevent fraudulent access to the various elements comprising the printing mechanism.

Multiple totalizers The illustrative machine is provided with a plurality of totalizing devices for segregating the amounts of the different transactions entered in the machine. There is a totalizer appropriated to each of the received on account, charge and paid out keys, a supplemental totalizer being provided for accumulating cash sales entered in the machine. Cash sales are entered by simply depressing the amount keys together with the desired clerks key and then subsequently operating the crank handle, it being'obvious, of course, that during such transactions no transaction key is operated. In addition to the above described totalizers, another totalizer is provided which is designated as the grand" totalizer intended in the embodiment shown to accumulate all the items entered in the charge" and "ca sh totalizers representing the total amount of sales performed during some arbitrary period.

Since the construction of the various totalizers is alike a description of one will suilice for all.

Each totalizer comprises a frame 2|0 (Fig. 16) journaled between the totalizer support frames 44 and 45 by means of journal pins 2| Each totalizer carries a totalize wheel supporting shaft 2|2 said shaft carrying a plurality of totalizer pinions 2 i3. There are a sulcient number of differential devices for the accumulating section of the machine for six denominational orders, and there are a corresponding number of totalizer pinions 2|3; in order to actuate them differentially each of the segments |12 is provided with a'segmental rack 2|4 (Fig. 15). The journal pins 2| are the pivotal points of each of the totalizers and the totalizer frames are adapted to be rocked about these points as a center to bring the totalizer pinions 2|3 into mesh with the segmental racks 2|4, it being observed in Fig. 16, that the pinions 213 and racks 2|4 are in alignment with each other and that the racks 2|4, as shown in Fig. 15, are of sufilcient dimensions to engage any of the pinions of a totalizer which may be selected for operation. As shown in Fig. 13, there is attached to each totalizer wheel supportingl shaft 2|2 a downwardly extending arm 2|5, the lower end of which slides in a radial slot formed in the totalizer support frame 45 and each arm 2|5 is provided with a slot 2|3 substantially concentric with respect to the shaft |41.

The differential mechanism for the transaction key bank as already explained comprises the lever |33'r and the complementally moved lever |43T similar to those described in connection with the amount key differential mechanism, it being noted, however, that the universal bar |31 (Fig. 5) is not of sumcient length to co-operate with the slot |33 of the lever |33 related to the transaction bank differential mechanism, and that a stud or rod 220 is provided for this purpo. The stud 223 is carried by an upwardly extending arm 22| (Figs. 6 and 9) integral with which is s. rearwardly extending arm 222 provided at its rear- 15 ward end withoppositely extending rollers 223 and 224 (see also Figs. 6 and 11).

In the normal item entering operations the roller 223 engages a slot formed in a box cam 223 mounted for rotary movement with the driving 20 shaft 51 (see Figs. 6 and 12). It will be noted in Fig. 12 that the configuration of the cam slot in the cam 225 which is eifective during item entering operations (the various portions being designated by the reference character 223) isdiiferent 25 from the cam slot in the box cam |34 (Fig. 5) for operating the amount and clerks key differential mechanisms and it is so designed that the pin 223 during the first movement of the driving shaft 51 will dwell a longer time than the rod |31. In 30 normal add" operations the levers |33 and |45 of the amount and clerks key differential mechanism will move towards each other prior to any movement of the corresponding members |33 and |45 of the transaction diiferential mechanism and substantially at or Just prior to the time that the levers |33 and |45 of the amount differentials close upon the opposite sides of a depressed key,

ya. portion of the cam slot 223 will be effective to is necessary since it is desirable to nrst differentially'adjust the actuating racks 2|4 and then while they are stationary, differentially move the levers |33T and |45T of the transaction differential mechanism so that the desired totalizer will be engaged with the positioned racks, the latter then being restored to their normal positions to eifeot 5 adding in the totalizer while the pinions remain engaged with these actuators.

In order to select the cash totalizer for operation it is only necessary to depress the desired amount keys and a clerks key to release the machine for operation final operation being performed by operating the crank handle as previously described. It will be noted in Fig. 13, that the diiferentially'movable lever |33'r is equipped with a pin 221 and that pivotally mounted by l. C5 pin 2|1 upon the lever |451' is a cam member 223 formed with a lug 223 and a cam slot 233. A coil spring 2|3 tends to rock the cam,member 223 clockwise but it is stopped by the fco-operation of its forward edge with an integral' projection 2 I 3 70 of the lever |45T (see Flg.`14).

Fig. 13 shows the normal position of the parte which they are in prior to an operation for entering an item in the cash totalizer 23|. Bometime after the operation of the machine by the 75 

